BR112013006776B1 - END MILL WITH UNEQUAL HELIX ANGLE - Google Patents

Abstract

MILL WITH UNEQUAL ANGLE PROPELLER. The object of the invention is an unequal angle propeller mill comprising a cutting part and a maneuvering part, in which the entire cutting part is provided with a plurality of flutes, each of which in a spiral form extends from the lower end. of the maneuvering part. The surface of each flute that lies in the direction of cutting rotation is an inclined surface, wherein the inclined surface and an outer peripheral surface of the cutting part are cut to form an outer peripheral blade, and the helix angle of at least one of the peripheral laminae is different from other peripheral laminae. A surface attached to the peripheral blade between the outer peripheral surface of the cutting part and a rear surface. The width B of the extreme flap of each peripheral blade is equal to an orthogonal plane and an axis of rotation of the mill. The uneven angle propeller mill has high strength, and can increase cutting depth and durability.

Description

Descriptive Report

(0001) The present invention relates to an end mill with an unequal helix angle

(0002) An invention portion of this patent document contains material that is subject to copyright protection. The copyright owner has no objection to any reproduction by anyone of the patent invention as it appears in the files of the American Patent and Trademark Office, but otherwise reserves any and all copyright rights.

(0003) The present invention relates to the field of metal processing and cutting, and more particularly to an end mill with an unequal helix angle.

(0004) A Milling Process Is A Discontinuous Transformation Process. An end mill will suffer from an impact load due to the milling movement between the end mill and the processed material during the milling operation, and thus a wobble of the end mill is the result. When the oscillation frequency of the end mill is approximately equal to the natural frequency of the workpiece, a resonant vibration occurs and the processing quality and life time of the end mill are severely affected. Currently, many efforts have been devoted to improving end mill anti-vibration with the aim of reducing or eliminating end mill wobble during milling operation, improving the processing quality and increasing the service life of the end mill. Document Cn115393 Discloses An Unequal Helix Angle End Mill, Which Is Provided With A Plurality Of Peripheral Spiral Helical Blades. The helix angle of each of the peripheral blades is different from the helix angles of other peripheral blades, so the milling time interval of the peripheral blades relative to the direction of rotation of the end mill is not the same, the interval of Time for each of the peripheral blades cutting the workpiece is not equal, the included angle between each of the peripheral blades is different, and the effective cutting length of the lower peripheral blade for the workpiece is different. Thus, the main body of the end mill is prevented from producing periodic oscillation of the same frequency as the natural frequency of the workpiece, and resonant vibration is also avoided. Therefore, the surface quality of the workpiece is increased, and excessive wear or even breakage of the end mill blades is prevented. However, in such end mills with unequal angle helix, the width of the extreme lip of each of the cutting blades along the axial direction is not the same, and therefore the strength thereof is different, so it must There will be a relatively weak location. The linear part of the flute is intersected with the back surface forming an obtuse angle, the width of the extreme flange of the cutting blade on the back side of the rotation direction of the end mill is reduced, and thus the strength and rigidity of the cutting blades. End Mill Cutting Become Weak. Therefore, when this type of end mill is used in a roughing or deep cutting axial feed milling process, the possibility of breakage of the cutting blades is relatively high.

(0005) The technical problem to be solved by the present invention is to overcome the drawbacks of the conventional technique and provide an end mill with an unequal helix angle, which has high strength, improved cutting depth and durability.

(0006) Other advantages and characteristics of the invention will be evident from the following description, and can be realized by means of particular instruments and combinations evidenced in the attached claims.

(0007) According to the present invention, the above and other objects and advantages are achieved by an end mill with unequal helix angle, which comprises a cutting part and a maneuvering part, wherein the entire cutting part is provided with a plurality of flutes, wherein each of the spiral flutes extends from a lower end of the cutting part to the maneuvering part, wherein the surface of each flute lying in the direction of cutting rotation is a surface inclined surface, wherein the inclined surface and an outer peripheral surface of the cutting piece are cut to form an outer peripheral blade, wherein an angular helix of at least one of the peripheral blades is different from the other peripheral blades, wherein a surface joined to the peripheral blade between the outer peripheral surface of the cutting part is a rear surface, wherein the width B of an extreme flap of each of the peripheral blades is equal to a plane orthogonal to the axis of rotation of the end mill.

(0008) The width B of the extreme flap of each of the peripheral blades is constant along an axial direction of the end mill.

(0009) The outer diameter of the cutting part is D, and the width B of the extreme flap of each of the peripheral blades is 0.16D ~ 0.25D.

(0010) The length Ap of each of the peripheral laminae is 2.5D ~ 5D.

(0011) The back surface comprises a first back surface, a second back surface, and a third back surface.

(0012) Compared to the prior art, the present invention has the following advantages:

(0013) The width B of an extreme flap of each peripheral blade is equal on a plane orthogonal to the axis of rotation of the end mill of the present invention, so that the difference between the force of each peripheral blade is reduced. In this way, the end mill of the present invention can not only improve the surface quality of the workpiece by inhibiting vibration during the cutting process, but also can ensure the overall strength and rigidity of the peripheral blades of the end mill, as well as improve the durability and cutting efficiency of the end mill, so as to provide favorable process conditions for roughing feeding and cutting depth. The width B of the extreme flap of each peripheral blade is constant along the axial direction of the end mill, so that the force of each peripheral blade is substantially constant along the axial direction of the end mill, so as to increase the evenness of the strength of the peripheral blades, avoid the existence of several weak locations in the peripheral blades in a pre-determined plane in a cut orthogonal to the axis of rotation, avoid relatively rapid abrasion, which occurs in a part of the end mill that results in a decrease in the durability of the end mill, and increase the excellent performance of the end mill of the present invention in a feed and cutting depth roughing process. Once the total strength of the peripheral blades is increased, the length Ap of each peripheral blade can be increased to 2.5 to 5 times of the outer diameter D of the cutting part, so as to obtain greater cutting efficiency and durability. The back surface comprises a first back surface, a second back surface, and a third back surface. The three back surfaces are all prepared through flat grinding with cutting spaces, so that the rigidity and strength of each end mill cutting blade are ensured, and the processing for actual production is easy.

(0014) Objects and advantages will be evident from a consideration of the description and accompanying drawings.

(0015) These and other objectives, features and advantages of the present invention will be evident from the following detailed description, drawings and attached claims.

(0016) Figure 1 is a side view of the unequal helix angle end mill in accordance with a preferred embodiment of the present invention.

(0017) Figure 2 is an enlarged sectional view along the line X-X in Figure 1.

(0018) Figure 3 is an enlarged sectional view along the Y-Y line in Figure 1.

(0019) Figure 4 is an enlarged sectional view along the Z-Z line in Figure 1.

(0020) The following description is presented to enable any person skilled in the art to carry out and use the present invention. Preferred embodiments are provided in the following description as examples only and modifications will be apparent to those skilled in the art. The general principles defined in the following description will be applied to other embodiments, alternatives, modifications, equivalents and applications without departing from the spirit and scope of the present invention.

(0021) With reference to figures 1 to 4 of the drawings, an end mill with unequal helix angle according to a preferred embodiment of the present invention is illustrated. The unequal helix angle end mill, which is made of rigid material such as cemented carbide and whose entire body is formed in the form of a column, comprises a maneuvering part 2, which is in the form of a column, at a first end of the same, and a cutting part 1 at a second end thereof. The maneuvering part 2 is used for coupling with a main shaft of a machine. The main axis of the machine can make the end mill rotate in the T direction with respect to the central axis of the same so as to grind the workpiece. The entire cutting part 1 is provided with a plurality of ribs 4, each of which extends in a spiral form from a lower end of the cutting part 1 to the maneuvering part 2. According to this preferred embodiment of the present invention , the number of striations 4 is four. The four flutes 4 have different heights along the circumferential direction of the end mill with unequal helix angle. The surface of each flute 4 facing the cutting rotation direction is an inclined surface 21, the inclined surface 21 and an external peripheral surface of the cutting part 1 intersect to form an external peripheral blade 3, and the angle of the hair helix least one of the peripheral blades 3 is different from that of the other peripheral blades 3. According to this preferred embodiment, one pair of peripheral blades 3 defines a helix angle β1 of 38°, and the other pair of peripheral blades 3 defines a helix angle β2 of 41°. A surface attached to the peripheral blade 3 between the outer peripheral surface of the cutting part 1 is a back surface 11. The back surface 11 comprises a first back surface 111, a second back surface 112, and a third back surface 113. The three surfaces later are all prepared through flat grinding with cutting gaps, so the rigidity and strength of each end mill cutting blade are guaranteed, and the processing for actual production is easy. The width B of the extreme flange of each peripheral blade 3 is equal to a plane orthogonal to the rotation axis of the end mill with unequal helix angle, so that the difference between the force of each peripheral blade 3 is reduced. The unequal helix angle end mill of the present invention can not only improve the surface quality of the workpiece by inhibiting vibration during the cutting process, but also can ensure the overall strength and rigidity of the peripheral blades 3 of the end mill as well as increasing the cutting efficiency and durability of the end mill, so as to provide favorable conditions for the roughing process of feed and cutting depth.

(0022) According to this preferred embodiment, the width B of the extreme flap of each peripheral blade 3 is constant along the axial direction of the unequal helix angle end mill. Therefore, the force of each peripheral blade 3 is substantially constant along the axial direction of the end mill with unequal helix angle, so as to further increase the evenness of the force of peripheral blades 3, prevent the relatively rapid abrasion that occurs in predetermined weak locations of the end mill with unequal helix angle which result in a decrease in the durability of the end mill, and further enhance the excellent performance of the end mill of the present invention in a roughing process of feed and depth of cut. When the outer diameter of the cutting part 1 is D, the width B of the extreme flap of each peripheral blade 3 is 0.16D ~ 0.25D. According to this preferred embodiment, the width B of the extreme flap is 0.163D. The width Ap of each peripheral lamina 3 is 2.5D ~ 5D. According to this preferred embodiment, the width Ap of each peripheral lamina is 3.5D. Since the entire strength of the peripheral blades is increased, the length Ap of each peripheral blade can be greatly increased, so that greater cutting efficiency and durability of the unequal helix angle end mill of the present invention are obtained. The present invention can not only be used on the orthogonal end mill of this preferred embodiment, but also on other end mills, such as an end mill with a rounded head or with an arched head.

(0023) The following description will discuss the performance of the end mill of the present invention, compared to a control.

(0024) Therefore, the end mill of the present invention is compared with a normal end mill under the following cutting conditions.

(0025) For control, a structure with unequal saw fields and equal helix angles is employed. The scrap receiving space is relatively large and the scrap unloading is smooth and easy. Furthermore, the rigidity and strength of the end mill are good.

(0026) For cutting parameters, Vc = 6m/min, fz = 41 mm/z, Ap = 4mm, Ae = 8mm. (0001) The workpiece material is S316 stainless steel.

(0027) For the life time of the standard end mill, the abrasion or rupture of the back surface of the peripheral blades is evaluated by the VB value.

(0028) After a two-hour milling process, the abrasion or rupture conditions of the end mill of the present invention and the control are detected and the results are shown in the following description.

(0029) For the end mill of the present invention, VB = 0.06, a slight rupture of the blades is detected.

(0030) For the control, VB = 0.091 mm ~ 0.098 mm, a relatively large rupture of the blades is detected.

(0031) One skilled in the art will understand that the embodiment of the present invention as shown in the drawings and described above is exemplary only and is not intended to be limiting.

(0032) In this way, it will be seen that the objects of the present invention have been completely and effectively achieved. Embodiments have been shown and described for the purpose of illustrating the functional and structural principles of the present invention and are subject to change without departing from these principles. Accordingly, the present invention includes all modifications encompassed within the spirit and scope of the following claims.

Claims (7)

1. “END MILL WITH UNEQUAL HELIX ANGLE”, said cutter comprising a cutting part (1) and a maneuvering part (2), wherein said cutting part (1) has a column shape and defines a outer peripheral face, wherein said entire cutting part (1) is provided with a plurality of flutes (4), which have different pitches along a circumferential direction, wherein each of said flutes (4) extends spirally from a lower end of said cutting part (1) to said maneuvering part, wherein a surface of each flute facing a direction of cutting rotation is an inclined surface (21), in wherein a helix angle of at least one of said peripheral blades is different from that of other peripheral blades, wherein said cutter is characterized by comprising a back surface, wherein the width B of an extreme flap of each of said peripheral blades is equal to a plane orthogonal to an axis of rotation of said cutter, wherein the width B of said edge flap of each of said peripheral blades is constant along an axial direction of said cutter. 2. “END MILL WITH UNEQUAL HELIX ANGLE, as claimed in 1, characterized in that the width B of said extreme flap of each of said peripheral blades is constant along an axial direction of the cutter in any transversal section thereof. 3. “END MILL WITH UNEQUAL HELIX ANGLE, as claimed in 1 or 2, characterized in that the external diameter of said cutting part (1) is D, wherein the width B of said extreme flap of each of said blades peripheral is 0.16D ~ 0.25D. 4. “END MILL WITH UNEQUAL HELIX ANGLE, as claimed in 1, characterized in that the external diameter of said cutting piece is D, and in which the length Ap of each of said peripheral blades is 3.5D ~ 5D. 5. “END MILL WITH UNEQUAL HELIX ANGLE, as claimed in 3, characterized in that the length Ap of each of said peripheral blades is 3.5D ~ 5D. 6. “END MILL WITH UNEQUAL HELIX ANGLE, as claimed in 1 or 2, characterized in that said rear surface (11) comprises a first rear surface (111), a second rear surface (112), and a third rear surface (113), which are three flat polishing surfaces, respectively. 7. “END MILL WITH UNEQUAL HELIX ANGLE, as claimed in 5, characterized by comprising a first rear surface (111), a second rear surface (112), and a third rear surface (113), which are three surfaces flat polishing tools, respectively.